JPH02227980A - Heater discontinuity sensing device - Google Patents

Abstract

PURPOSE:To have accurate sensing of wire severance by converting the heater current value measured by a sensor into percentage with respect to the reference current, and having judgement that the heater has severed when the percentage obtained is lower than the set percentage. CONSTITUTION:The heater current flowing actually through a heater circuit 1, while heaters 2-4 are in normal operating condition, turns on an output relay, etc., and the current value at this time is measured by the use of a current transformer CT and stored in a comparator circuit 7 in percentage with respect to the reference value of 100%. Setting of the heater severance sensing level and comparison of the heater current measured value with the set level are carried out not by the current value itself, but according to the size of percentage with respect to the stored reference value as 100%. This enables accurate sensing of heater severance regardless of error and/or dispersion.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application This invention relates to a heater disconnection detection device applied to a temperature control device incorporating a heater.

(b) Conventional technology Three heaters 21 and 22 connected in parallel as shown in Figure 2
．． In the heater circuit 24 having the heater circuit 23, the conventional method for setting an alarm in the event of a heater burnout is to read out the value of the heater current flowing through the heater circuit 24 with a current detector such as a current transformer CT, display it, and watch this displayed value. The heater disconnection detection level is input as a current value to the detection current setting device 25.

Note that when the heater circuit 24 is in use, the current value at the set disconnection detection level and the A/D output from the input amplifier circuit 26 are
The measured heater current value passed through the conversion circuit 27 is always compared in the current value comparison circuit 28, and if a situation occurs where the latter is less than the former, a disconnection alarm is output.

Another method for detecting disconnection is to remove one of the three heaters 21, 22, and 23 in Figure 2 to create a disconnection condition, and then turn the heater current setting volume in the highest heater current mode. Some systems set the heater burnout alarm level at an appropriate point based on this point while confirming that the alarm is actually output.

(C) Problems to be Solved by the Invention However, in the method of setting the heater burnout detection level using a current value, the current transformer CT, the input amplifier circuit 26, the A/D
Errors and variations in the conversion circuit 27 and the like cause errors in the detected value of the heater current, and errors also occur in the set current value itself, making it difficult to set the heater disconnection detection level.

For example, in FIG. 2, assume that three IOA heaters are used, and if one breaks, the heater current will drop to 20A, so the heater breakage detection level is set to 25A, which is between 30A and 20A.

However, if there is an error in the current transformer CT or other input circuits, and 30A is measured as 25A, the heater burnout detection level setting must be redone.

Further, when setting using a volume control, it is difficult to know at what level the heater disconnection detection level is set, and it is complicated to create a disconnection state each time for setting operations.

SUMMARY OF THE INVENTION In view of the above-mentioned problems, it is an object of the present invention to provide a heater disconnection detection device in which setting of a heater disconnection detection level is easy and accurate disconnection detection can be expected.

(d) Means for solving the problem In this invention, the heater current value of the heater circuit measured when the heater is in a normal energization state is memorized as 100% current, which is the reference for percentage calculation, and the current value is thereafter measured by the current detector. Change the heater current value to 100% of the above reference current.
At the same time, the heater burnout detection level is set as a percentage of the reference current 100%, and when the percentage as the measured value falls below this set percentage, heater burnout is detected. It is characterized by a heater disconnection detection device that detects it.

(E) Effect According to the present invention, the setting of the heater burnout detection level and the comparison between the set level and the heater current measurement value are performed not based on the current value itself, but based on the magnitude of the percentage of the memorized reference current with respect to 100%. It is done. The reference current of 100% is determined by assuming that all measured heater current values are 100% of the current when the heater is normally energized, regardless of errors or variations in the current detector or input circuit used in the method of this invention. I try to use it.

Therefore, heater disconnection detection can be performed regardless of the above-mentioned errors and variations.

(g) Effects of the invention Therefore, the setting operation of the heater disconnection detection level is easy.
It can be done twice, improving operability. Moreover, since the percentage is set, the heater disconnection detection level can be easily grasped.

Also, if there is only one heater, the current value will be 100% or 0.
%, so set the heater disconnection detection level as an initial value, for example, 50%, and then automatically set the above initial value when the power is turned on, control is started, and the output is turned on. If the current value is read into the means for comparison with the measured heater current, the user does not need to perform setting operations regarding heater disconnection at all, which has the advantage of saving time and effort.

(g) Examples An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment circuit in which the device of the present invention is applied to a heater circuit 1. In FIG.

In FIG. 1, a heater circuit 1 is constructed by connecting three heaters 2, 3.4 connected in parallel to a power source AC, and a current transformer CT extracts the value of the current flowing through the heater circuit 1.

The extracted heater current value is processed by the input amplifier circuit 5, then converted into a digital value by the A/D conversion circuit 6, and input to the comparison circuit 7. The comparison circuit 7 compares the input heater current value and the heater burnout detection level signal input from the detection level setter 8 as described later, and when the former falls below the latter, outputs a heater burnout alarm. It is configured to emit.

In the circuit shown in Figure 1, when the heater 2.3.4 is in a normal state (that is, without any disconnection), the value of the heater current that actually flows through the heater circuit 1 is changed by turning on the output relay, etc., using the current transformer CT. The value at this time is stored in the comparator circuit 7 as the current 100%, which is the percentage calculation standard. Therefore, even if there are manufacturing errors or variations in the current transformer CT, input amplifier circuit 5, and A/D conversion circuit 6, the measured current value will always be 100% as long as the heaters 2, 3 and 4 are normal. is memorized as .

On the other hand, as the heater current value measured by the current transformer CT under normal heater usage conditions is also input from the A/D conversion circuit 6 to the comparison circuit 7, the current value increases depending on the magnitude.
Corrected to measured percentage relative to 00%.

Similarly, in the detection level setter 8, the heater disconnection detection level is set as a percentage of the above-mentioned 100% current,
This set percentage is input to the comparator circuit 7.

Therefore, the comparison circuit 7 compares both the percentage of the measured heater current value and the percentage of the set heater disconnection detection level.

For example, heaters 2, 3.4 are each IOA,
Let C (=100%) be the current measurement value during normal operation when 30 A is flowing through the circuit 1 as a heater current. When one heater burns out, the heater current should drop to 2OA, so the measured current value will be (2/3)·C. So C and (
2/3) 83% ((5/6)xlOO%
] is set as the heater disconnection detection level by the user, (1/2)(C+ (2/3) ・C] = (5/6
) ・C.

The comparison circuit 7 constantly compares the set percentage (5/6)・C with the measured percentage, and outputs an alarm when the measured percentage falls below.

In this way, the measured current value under normal energization is always set to 100%.
Since it is used as a reference value as %, it is possible to eliminate the influence of errors and variations in the current transformer CT, etc., as described above.

Further, in a heater circuit using only one heater, the measured heater current is either 100% or 0%.

Therefore, a setting such as a heater disconnection detection level of 50% is added to the detection level setter 8 as an initial value at the heater device manufacturing stage, and when the user turns on the power AC and the control is started, the output is turned ON. If the above-mentioned initial value is automatically loaded into the comparator circuit 7 at the time when , the user will not be involved in setting the heater disconnection detection level, and the system will be easy to use.

Regarding the correspondence between the configuration of the present invention and the above-described embodiments, the heater circuit of the present invention corresponds to the heater circuit 1 of the embodiment, and similarly, the heater corresponds to heater 2.3.4, and the input circuit corresponds to the input amplifier circuit 5 and the A/D conversion circuit 6, the percentage comparison means corresponds to the comparison circuit 7, the heater burnout detection level setting corresponds to the detection level setter 8, and the current detector Although this corresponds to a current transformer CT, the present invention is not limited to the above-described embodiment.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention; FIG. 1 is a heater breakage detection circuit diagram, and FIG. 2 is a conventional heater breakage detection circuit diagram. 1... Heater circuit 2, 3.4... Heater 5
...Input amplifier circuit 6...A/D conversion circuit 7.
・Comparison circuit 8 ・Detection level setter CT
...Current transformer

Claims (1)

[Claims] (1) The heater current value of the heater circuit measured when the heater is normally energized is memorized as 100% current, which is the standard for percentage calculation, and from now on, fluctuations in the heater current value measured by the current detector are calculated as 100% current of the above standard. At the same time, the heater burnout detection level is set as a percentage of the reference current 100%, and when the percentage of the measured value falls below this set percentage, heater burnout is detected. Heater disconnection detection device.